| AMPLIFIERS |
Study of Transistor Amplifier Circuits TE-B21C
To
study Frequency Response, Input Impedance, Output Impedance & -ve Feed
Back of Common Base, Common Emitter & Common Collector Transistor
Amplifiers. Instrument components mounted on the front panel &
important points brought on terminals OPT
Audio Frequency Function Generator TE-93, Digital AC Millivoltmeter.
Dimension 8"x6"x4". |
Study the effect of negative feed back of transistor amplifier
(i) Voltage gain
(ii) Input Resistance
(iii) Output Impedance
OPT.Function Generator TE-93. V.T.M. TE-63 |
FET Common Source
Amplifier TE-B29
Study
of Voltage Gain and Frequency Response of a Common Source Amplifier. Instrument comprises
of DC Regulated Power Supply, Circuit diagram is printed, Components
mounted on the front panel & connections of important points brought
on terminals.
OPT
Audio Frequency Function Generator TE-93, Digital AC Millivoltmeter.
Dimension 8"x6"x4". |
Biasing of Transistor (BJT) TE-B42
To
Study of different Biasing Circuit for Transistor such as Fixed Bias
Method, Collector to Base Bias, Emitter Resistor Bias and Voltage Divider
Bias Methods. Instrument consists of One DC Regulated Power Supply, One
NPN Transistor, 2 meters to measure the voltage and current, Different
types of Resistances connected inside & connections brought on
terminal. Dimension 8"x6"x4". |
R.C. Coupled Amplifier (Two Stage)
Study
of voltage gain & frequency response of a R.C. Coupled Transistor
Amplifer Opt. Function Generator TE-93. V.T.M. TE-63 |
| CHARACTERISTICS OPERATIONAL AMPLIFIERS |
Operational
Amplifier as Inverting & Non Inverting Amplifier TE-F5
To
study Operational Amplifier as Inverting & Non Inverting Amplifier.
Insturment comprises of DC Power Supplies of 500 mA & ±15V DC,
circuit diagram Printed & different Resistances can be connected
externally for various observations. Dimension 10"x7"x3".
Digital
Multimeter 3.5 Digit, Digital Voltmeter 20 VDC. |
Study of Operational Amplifier TE-F2
To
study operational Amplifier as Inverting, (a) Unity gain buffer stage (b)
Non-Inverting Amplifier (c) Inverting Amplifier (d) Summing Amplifier (e)
Difference Amplifier Instrument comprises of 3 DC Regulated Power Supplies
of 0 to ±15V and 0 to 6V. |
Study
of Characteristics of Operational Amplifier TE-F2C
To
study the basic characteristics of OP-Amp as Input Offset Current, Offset
Voltage, Slew Rate, Band Width and Null Balancing.
Instrument
comprises of ±15 VDC Regulated Power Supply, 2 round meters, Different
type of Resistance and Capacitors, IC 741 connected inside &
connectiions brought out at 4mm Sockets.
OPT.
DMM, Audio Frequency Function Generator TE-93 and CRO TE-96. |
| Linear I.C. Trainer |
Study Operational Amplifier as Adder, Subtractor, Integrator and
Differentiator TE-F2A
Instrument
comprises of 2 DC Regulated Power Supplies of 0-5 VDC, Power Supply ±15VDC,
2 Dual range, round meters to measure input and output voltages &
Combination of Resistances, Capacitors mounted on Front Panel.
OPT.
Audio Frequency Function Generator TE-93, CRO TE-96. |
| Study of Operational Amplifier as Differentiator & Integrator.TE-F10 |
| Study of Operational Amplifier as Schmitt Trigger. TE-F12 |
| Study of Operational Amplifier as Sine to Square Wave Converter TE-F12A |
| Study of Operational Amplifier as Square to Triangular &
Trinagular to Square wave convertor. TE-F12C |
| Study of Operational Amplifier as Clipping and Clamping Circuit.TE-F15A |
Study of Operational Amplifier as Voltage Comparator TE-F8A
Instrument
consists of + 15 VDC Regulated Power Supply, 1 meter, Combination of
Resistances, Zener Diode & IC 741 connected inside & connections
brought on terminals. |
Study of Operational Amplifier as V to I to I to V Convertor TE-F31A
Instrument
comprises of + 15 VDC Regulated Power Supply, 2 round meters, combination
of Resistances & IC 741 Connected inside & connections brought out
at sockets on front panel. |
Study of Operational Amplifier as Voltage and Current Feed Back
Amplifier TE-F14A
To
study the operational amplifier application as voltage and current feed
back amplifier.
Instrument
comprises of +15VDC Regulated Power Supply, 2 round meters of Dual range,
combination of Resistances & IC 741 connected inside & connections
brought out at sockets on front panel. |
Study of Instrumentation Amplifier TE-F8 I
Calculate
the Voltage Gain of Instrumentation Amplifier and draw a curve between V
& R. Instrument comprises of One +15VDC Regulated Power Supply, 2 DC
Regulated short circuit and overload protected continuously variable Power
Supplies,
3 no. IC 741 placed inside & connections brought out at sockets. One
Potentiometer and combination of Resistances placed on the front panel.
DMM. |
Study of Logrithemic Amplifier TE-F8L
To
study the Log. Antilog and Ideality factor for Log Amplifier and plot a
graph of V1-V0 for Antilog Amplifier.
Instrument
comprises of DC Regulated short circuit and overload protected
continuously variable Power Supply, ±15VDC, one Potentiometer, IC 741 and
Diode 4007/OA 79. DMM. |
| |
STUDY OF MULTIVIBRATORS
All
the Multivibrators Kits are with DC Power Supply, Circuit Diagram Printed
& Components mounted on front Panel. Kits require CRO as Accessories. |
| Monostable Multivibrator using IC 555.TE-M1 |
| Monostable Multivibrator using Transistors.TE-M2 |
| Astable Multivibrator using IC 555.TE-M3 |
| Astable Multivibrator using Transistors.TE-M4 |
| Bistable Multivibrator using IC 555.TE-M5 |
| Bistable Multivibrator using Transistors.TE-M6 |
| Monostable & Free Running Multivibrators using IC 555. TE-M7 |
| Monostable & Free Running Multi vibrators using Transistors. TE-M8 |
| |
| OSCILLATORS |
Hartley Oscillator TE-O3A
To
study the Frequency generated by a Hartley Oscillator Instrument comprises
of DC Regulated Power Supply, Circuit diagram Printed & components
mounted on panel.
With
variable L & C wave meter. |
Colpitt Oscillator TE-O3
To
study the Frequency and Wave shape generated by a Colpitt Oscillator.
Instrument comprises of DC Power Supply, Circuit diagram Printed &
components mounted on front panel Opt. CRO
TE-96. |
Phase Shift Oscillator TE-OA
To
study the Frequency and Wave shape generated by a Phase Shift Oscillator.
Instrument comprises of DC Power Supply, Circuit diagram Printed &
components mounted on front panel.
Opt.
CRO TE-96. |
Wein Bridge Oscillator using Operational Amplifier IC 741. TE-F26
To
study the Frequency and Waveshape generated by a Wein Oscillator.
Instrument comprises of DC Power Supply, Circuit diagram Printed &
components mounted on front panel. Opt. CRO TE-96. |
